Biofabrication: The New Revolution in Material Design

Leather grown in a lab; parkas made from protein; and textiles printed from algae are a few examples of how designers are using synthetic biology to craft a more sustainable future for fashion. Just as nylon and other chemically, engineered synthetic fabrics shaped the fashion industry in the 1950s and 60s, the next material revolution is poised to combine biology and chemistry to offer something undisputedly new and different.

Below are four young companies engineering the future of sustainable fashion creating the most powerful mix of nature and technology.

Spiber has an ambitious mission statement: To make a huge impact on the world by “maximizing things that bring goodness to others.” What this translates too is a lofty endeavor to use proteins to create the next generation of sustainable materials. Unlike Modern Meadow, Spiber is investigating synthetic spider silk in hopes to translate the complex combination of amino acids into an industrial material.

Their first prototype created on a manufacturing line is the Moon Parka made in collaboration with North Face. Made with spider fibroin-based protein material QMONOS, the Moon Parka is designed to endure the harsh conditions of the south pole.

BioBots is a 3D bioprinter that can print tissues. The machine uses a variety of available bioinks that work with a various cell types. The cost of BioBot is around 10K making tissue printing relatively affordable.

Lastly, if you’re curious to grow your own microbial cellulose, here is a video to get you started:

Biofabrication: The New Revolution in Material Design was last modified: August 23rd, 2016 by Syuzi Pakhchyan

Syuzi Pakhchyan is a user experience designer and author with a passion for crafting next generation wearable technologies. Syuzi is reimagining the design industry with her game-changing insights on the connection between technology and the human body